Antibody engineering-based approach for hapten immunometric assays with high sensitivity

Abstract

The trace characterization of physiologically active substances with low molecular weight (e.g., steroids, catecholamines, prostaglandins, and oligopeptides), which are classified as "haptens", is an important subject in clinical analysis, and competitive immunoassays have conventionally been used for this purpose. However, the subfemtomole-range determination of haptens is very difficult, as the sensitivity of competitive immunoassays is essentially limited by the affinity of the anti-hapten antibodies that barely reaches the range of 1011 (l/mol) as the affinity constant (K a). Although a noncompetitive "immunometric assay" format, the two-site immunometric assay (sandwich immunoassay), enables even subattomole-range measurements of macromolecules such as proteins, this principle can not be directly applied to haptens, as their low molecular mass prohibits simultaneous binding by two antibody molecules. To overcome such limitations, we are required either to create artificial antibodies showing ultrahigh affinity to haptens by protein engineering of antibody molecules ("antibody engineering") or establishment of novel immunometric assay formats applicable to haptens. This review surveys the background and recent approach for subfemtomole-range determination of haptens using novel immunometric assay methods. Our studies for the development of hapten immunometric assays are also described. © 2007 The Pharmaceutical Society of Japan.